user guide controlit - abb• three relay outputs: two for booster pump or divert valve control, one...

ControlIT

Booster Pump Controller

C320

User GuideIM/C320_5

ABB

EN ISO 9001:2000

Cert. No. Q5907

The CompanyWe are an established world force in the design and manufacture ofinstrumentation for industrial process control, flow measurement, gas andliquid analysis and environmental applications.

As a part of ABB, a world leader in process automation technology, we offercustomers application expertise, service and support worldwide.

We are committed to teamwork, high quality manufacturing, advancedtechnology and unrivalled service and support.

The quality, accuracy and performance of the Company’s products resultfrom over 100 years experience, combined with a continuous program ofinnovative design and development to incorporate the latest technology.

The UKAS Calibration Laboratory No. 0255 is just one of the ten flowcalibration plants operated by the Company, and is indicative of ourdedication to quality and accuracy.

EN 29001 (ISO 9001)

Lenno, Italy – Cert. No. 9/90A

REGISTER

ED

Health and SafetyTo ensure that our products are safe and without risk to health, the following points must be noted:

1. The relevant sections of these instructions must be read carefully before proceeding.

2. Warning labels on containers and packages must be observed.

3. Installation, operation, maintenance and servicing must only be carried out by suitably trained personnel andin accordance with the information given.

4. Normal safety precautions must be taken to avoid the possibility of an accident occurring when operating inconditions of high pressure and/or temperature.

5. Chemicals must be stored away from heat, protected from temperature extremes and powders kept dry.Normal safe handling procedures must be used.

6. When disposing of chemicals ensure that no two chemicals are mixed.

Safety advice concerning the use of the equipment described in this manual or any relevant hazard data sheets(where applicable) may be obtained from the Company address on the back cover, together with servicing andspares information.

Electrical SafetyThis instrument complies with the requirements of CEI/IEC 61010-1:2001-2 "Safety requirements for electricalequipment for measurement, control, and laboratory use". If the instrument is used in a manner NOT specified bythe Company, the protection provided by the instrument may be impaired.

SymbolsOne or more of the following symbols may appear on the instrument labelling:

Information in this manual is intended only to assist our customers in the efficient operation of our equipment. Useof this manual for any other purpose is specifically prohibited and its contents are not to be reproduced in full or partwithout prior approval of the Technical Communications Department.

Warning – Refer to the manual for instructions

Caution – Risk of electric shock

Protective earth (ground) terminal

Earth (ground) terminal

Direct current supply only

Alternating current supply only

Both direct and alternating current supply

The equipment is protectedthrough double insulation

1

The COMMANDER 320 Booster Pump Controller acts as a differential pressure switch for usein the regeneration section of a pasteurizer. If the difference between pasteurized milkpressure and raw milk pressure falls below a preset level, the controller shuts down the rawmilk booster pump or alternatively, channels the pasteurized milk into the divert flow.

The COMMANDER 320 has the following features:

• Two 4 to 20mA analog inputs.• A transmitter power supply capable of powering the raw and pasteurized 2-wire

pressure transmitters.• A digital display of the raw and pasteurized product pressures.• A bargraph display of the difference between the raw and pasteurized pressures.• A deviation alarm to detect when the difference between the raw and pasteurized

pressures falls below a preset minimum.• A start-up alarm which allows the booster pump to remain off until the normal system

operating back pressure is achieved.• A manual override facility which allows the booster pump to be turned off using a digital input.• Selectable pressure differential retransmission output.• Three relay outputs: two for booster pump or divert valve control, one to operate a

warning light or horn.

This manual is divided into 4 sections and contains all the information necessary to install,configure and operate the instrument.

GETTING STARTED

Symbol Identification and Contents of Sections

Displays and Function Keys• Displays and function keys• LED Indication• Error Messages

Operating Level• Operating Page• Operating Page Messages• Alarm Acknowledge Page• Security Access

Configuration Level• Set Up Alarms• Set Up Inputs• Set Up Display• Scale Adjustment• Security Code Set Up• Commissioning

Installation• Siting• Mounting• Electrical connections

2

Section Page

CONTENTS

1 DISPLAYS AND CONTROLS............................................................................. 31.1 Introduction .................................................................................................................31.2 Use of Controls ...........................................................................................................31.3 Displays and LED Indicators .......................................................................................4

1.3.1 LED Indications, Relay and Alarm States ........................................................41.3.2 Deviation Bargraph ..........................................................................................5

1.4 Instrument Power-up ...................................................................................................52 OPERATING LEVEL........................................................................................... 6

2.1 Operating Page ...........................................................................................................62.2 Operating Page Messages .........................................................................................62.3 Alarm Acknowledge Page ...........................................................................................62.4 Security Access ..........................................................................................................7

2.4.1 Security Code Page .........................................................................................83 CONFIGURATION LEVEL.................................................................................. 9

3.1 Preparation for Changes to the Parameters ...............................................................93.2 Set Up Alarms Page .................................................................................................103.3 Set Up Inputs ............................................................................................................123.4 Set Up Display Page .................................................................................................143.5 Retransmission Output Page ....................................................................................153.6 Scale Adjustment Page .............................................................................................163.7 Access Page .............................................................................................................183.8 Commissioning .........................................................................................................19

4 INSTALLATION ................................................................................................ 204.1 Checking the Code Number ......................................................................................204.2 Siting .........................................................................................................................214.3 Mounting ...................................................................................................................224.4 Access to Terminals ..................................................................................................234.5 Setting the Input Selector Links ................................................................................244.6 Setting the Isolated Output Link ................................................................................244.7 Cable Glands and Conduit Fixings ...........................................................................25

4.7.1 Cable Glands (IEC – 20mm) ..........................................................................254.7.2 Conduit Adaptors (N. American – 0.5in) ........................................................254.7.3 Cable Glands (N. American – 0.5in) .............................................................. 26

4.8 Connections Summary ..............................................................................................274.9 Input Connections .....................................................................................................29

4.9.1 Current Input ..................................................................................................294.9.2 2-wire Transmitter ..........................................................................................29

4.10 Output Connections ................................................................................................294.11 Logic Input Connection ...........................................................................................294.12 Relay Connections ..................................................................................................304.13 Power Supply Selection and AC Connections ........................................................31

SPECIFICATION .................................................................................................... 32

3

1.1 Introduction – Fig. 1.1The Commander 320 front panel display, function keys and LED indicators are shown inFig. 1.1

Note. Continued pressure on the and switches causes the

rate of change of the displayedvalue to increase. To make smalladjustments operate the switchesmomentarily.

Frame 1Frame 2Frame 3Frame 4

Page 1

Frame 1Frame 2Frame 3

Page 2

Frame 1

Frame 2Frame 3

Page X

Frame 4

Advance tonext Frame

AdjustParameter Value

Parameter XYZ

Select

Used to acknowledge alarm A1 and de-energise relay 3

Fig. 1.2 Advancing to Next Page

Fig. 1.3 Moving between Frames

Fig. 1.4 Adjusting a Parameter Value

Fig. 1.5 Selecting a Parameter Choice

Fig. 1.6 Alarm Acknowledge Switch

1.2 Use of Controls – Figs. 1.2 to 1.6

1 DISPLAYS AND CONTROLS

Fig. 1.1 Front Panel Display, Function Keys and LED Indicators

'Enter' Switch LED

Deviation BarGraph Display

LED IndicatorsControls – Refer toFigs. 1.2 to 1.6

Displays

RAW

PAS

A1 A2 BP2BP1

'Data Entry' Switch(use to enter settingsand values in frames)

4

1.3 Displays and LED IndicatorsThe displays, LED indicators and operation/programming controls are located on the faceplateon the front of the instrument. The displays comprise 2 rows of 6 characters.

…1 DISPLAYS AND CONTROLS

Table 1.2 LED Indications and Alarm States

Display ConditionAlarm/Relay State

A1 Active and ackd.

A1 Active and unackd.

A1 Inactive

A2 Active

A2 Inactive

Relay 1 De-energised

Relay 1 Energised


Relay 2 Energised

Relay 3 Energised


Pasteurized I/P pressure: < Raw I/P pressure + divert trip level

Pasteurized I/P pressure: ≥ Raw I/P pressure + divert trip level

Displayed on power up.Active until Pasteurized I/P pressure ≥ Start up trip level then remains inactive untilpower is switched off and on.

Either A1 or A2 active

A1 and A2 inactive

A1 active

A1 inactive.

A1 active and unacknowledged.

A1 acknowledged.

On

Flashing

Off

On

Off

Off

On

Off

On

On

Off

LED

A1

A2

BP1

BP2

1.3.1 LED Indications, Relay and Alarm StatesLED indications, relay and alarm states are shown in Table 1.2. For electrical connections –see section 4.12.

AbC or cdEFGH or hIJK

LMN or nO or oPQrStUVY

ABCDEFGHIJK

LMNOPQRSTUVY

Table 1.1 Character Set

5

1 DISPLAYS AND CONTROLS…

1.3.2 Deviation Bargraph – Fig. 1.7The deviation bargraph displays:a) The difference between the raw pressure and pasteurized pressure inputs.b) The deviation alarm trip value

1.4 Instrument Power-up – Fig. 1.8

Caution. Ensure all connections, including the earth stud, are made correctly.

a) Check that the input sensors are installed correctly.b) Switch on the supply to the instrument, any power-operated control circuits and the input

signals.c) The start-up sequence shown in Fig. 1.8 is displayed when the supply is first switched on.

Fig. 1.7 Deviation Bargraph

Deviation alarm trip value

Difference between raw and pasteurized inputpressures is less than the alarm trip value

Difference between raw and pasteurized inputpressures is greater than the alarm trip value

Note. Acknowledging error clears the error but does not rectify the fault, check theconfiguration.

Instrument Test identifies the instrument type, C320 – see Table 4.1

Flashing

between

Normal Display

C320tESt

A1 BP2A2 BP1

RAW

PAS

A1 A2

100.3

200.5BP2BP1

RAW

PAS

A1 A2

CONFIGCHECK

BP2BP1

RAW

PAS

Conf igura t ion Check

indicates configuration error,

acknowledged by pressing

the switch.

Fig. 1.8 Instrument Displays at Power-up

6

Operating Page

Pressure of raw product.Pressure of pasteurized product.

If the difference between the two values falls below therequired level, i.e. Alarm 1 becomes Active, both values flashON and OFF.

2 OPERATING LEVEL

2.1 Operating Page

Information. The instrument has a dedicated Operating page. This page is used for generalmonitoring of the process measurements and is not affected by the security system whichinhibits access to the alarm set up and programming pages – see section 3

5.0010.00

2.2 Operating Page Messages

Table 2.1 Input Error Messages Displayed in the Operating Page

Reason

Failed Input – raw pressure input failure.

Failed Input – pasturized pressure input failure.

Message

F-INPt

F-INPt

Page Header – Acknowledge Alarms

Upper DisplayShows the alarm identity and type when an alarm condition ispresent.

dEV-AL – deviation alarm A1 SU-AL – start up alarm A2

Lower DisplayShows the trip level of the alarm identified in the upper display.When the alarm is acknowledged ( pressed ), ACKNGd isdisplayed.

Note. If alarm A2 is active, SU-ALis displayed, but the alarmcannot be acknowledged.

Return to top of page.

2.3 Alarm Acknowledge Page

ACKNLGALArMS

dEV-AL100.5

ACKNGddEV-AL

7

2 OPERATING LEVEL…

2.4 Security Access – Figs 2.1 and 2.2A security system is used to prevent tampering with the program parameters by utilizing asecurity input together with an Alarm password and a Configuration password – see Figs. 2.1and 2.2. Two levels of security are provided:

a) Security input secure – Alarm and configuration settings cannot be accessed.The security input may be protected by a tamper-proof seal – see Fig.2.3

b) Security input insecure – Alarm and configuration settings can be accessed by use ofthe correct password.

OperatingPage

(Section 2.1)

Alarm AcknowledgePage

(Section 2.3)

Security CodePage

(Section 2.4)

Security LinkINSECURE +configurationsecurity code

Security Link SECURE

Set Up AlarmsPage

(Section 3.2)

Configuration Level –see Section 3

SEtUPALArMS

SECOdEPAGE

100.3110.5

ACKNLGALArMS

Security LinkINSECURE +alarm orconfigurationsecurity code

Fig. 2.1 Security Access

Fig. 2.2 Security Settings

No security override onterminals 31 and 32

323130

Secure

Security override onterminals 31 and 32

323130

Insecure

Fig. 2.3 Tamper-proof Seal

8

2.4.1 Security Code Page

Page Header – Security Code Page

Set the correct Alarm or Configuration password using the and switches and press the switch to enter the

code.

The passwords are programmed in the Access Page – seeSection 3.7.

Software versionThe Upper display indicates the EPROM series.

The lower display indicates the version number.

Return to top of page

.

…2 OPERATING LEVEL

SECOdE

VEr 22001

0

9

3 CONFIGURATION LEVEL

OperatingPage

Section 2.1

SEtUPALArMS

COMMIMSSION

SECOdEPAGE

100.3110.5

ACKNLGALArMS

SEtUPINPUt

dISPLYPAGE

SCALEAdJUSt

ACCESSPAGE

Alarm AcknowledgePage

Section 2.3

Security codePage

Section 2.4

Set Up AlarmsPage

Section 3.2

Set Up InputsPage

Section 3.3

DisplayPage

Section 3.4

Scale AdjustPage

Section 3.6

AccessPage

Section 3.7

CommissioningPage

Section 3.8

Alarm Identities■

Trip Levels

Hysteresis

■

■

■ Broken SensorProtection Drive

Fault DetectionLevel % PV I/P

■

■ ProgrammableFilter

Mains Filter■

Display High/LowLimits

■

Decimal Point

Bar Graph %Increment Per Bar

■

■

Scale Adjust rawInput RangeHigh/Low Limits

■

Scale AdjustPasteurized RangeHigh/Low Limits

■

Alarm Password■

■ ConfigurationPassword

Operating Level

■ IsolatedRetransmission

rEtrANOUtPUt

RetransmissionOutput PageSection 3.5

Isolated and non-isolated outputsources

■

Pressuredifferenceretransmissionrange

■

Fig. 3.1 Configuration Level Overview

3.1 Preparation for Changes to the ParametersEnsure that the external alarm/control circuits are isolated if inadvertent operation duringprogramming is undesirable.

Any change to the operating parameters are implemented using the or switches – seeSection 2.

Note. The instrument responds instantly to parameter changes which are saved when the switch is pressed.

10

…3 CONFIGURATION LEVEL

3.2 Set Up Alarms Page

Information.• Two alarms – identified A1 and A2 .• Adjustable hysteresis value to prevent oscillation of alarm state.

Pasteurized pressureinput

Divert HysteresisValue

Alarm On

Alarm Off

Raw pressureinput

Divert triplevel

+

Pasteurizedpressure input

Alarm On

Alarm Off

Start Uptrip level

Fig. 3.2 Deviation Alarm A1

Information. From power up the alarm remains ACTIVE until the tripvalue is exceeded. The alarm then remains OFF until the controller ispowered down and up again.

Fig. 3.3 Start Up Alarm A2

11

3 CONFIGURATION LEVEL…

…3.2 Set Up Alarms Page

Page Header – Set Up Alarms.

Divert Trip LevelSet the trip level for alarm A1 in engineering units.

Note.When alarm A1 is active, relays 1 and 2 are de-energised.Alarm A1 can be acknowledged by the operator.When A1 is active and unacknowledged relay 3 isenergised.When A1 is acknowledged relay 3 is de-energised.

Divert Hysteresis LevelSet the hysteresis level for alarm A1 in engineering units.

Start Up Trip LevelSet the trip level for alarm A2 in engineering units.

Note.When alarm A2 is active, relay 1 is de-energised.Alarm A2 cannot be acknowledged by the operator.


SEtUPALArMS

––––dVtrIP

––––dVHYSt

––––SVtrIP

12


3.3 Set Up Inputs – Fig. 3.4

Information.• All changes made apply to both the raw and pasteurized pressure inputs.• Both inputs are fixed, 4 to 20mA• Programmable fault levels and actions.• Digital filter reduces the effect of noise on inputs.

Example – mA input, range 0 to 100 with 10% fault detection levels.

Current

110

–10

Input Type Display Range

Fault

Detection

Level 10 %100

0Fault

Detection

Level 10 %

Display Range

High

Display Range

Low

ProgrammeFilter

Value set to 0

Value set low

Value set high

Fig. 3.4 Setting Up the Input

13


…3.3 Set Up Input Page

Page Header – Set Up Process Variable Input.

Broken Sensor Protection DriveIn the event of a fault being detected on the input, thedisplayed value is driven in the direction of the modeselected.

Select the broken sensor drive required:NONE – No driveUP – Upscale drivedN – Downscale drive.

Note. When a broken input sensor is detected, the unitswitches to Divert Mode and turns the booster pump OFF.

Fault Detection Level Percentage,A fault level percentage can be set to detect a deviationabove or below the display limits, e.g. If set at 10.0%, thenif an input goes more than 10% above full scale value ormore than 10% below zero value, a fault is detected.

On some ranges the input circuitry may saturate before thefault level set is reached. In this case an error is detected ata level below that which is set.

Set the value required, between 0.0 and 100.0% in 0.1%increments.

Programmable FilterThis filters the pressure inputs, i.e. if the input is stepped,it smooths the transition between steps and may also beused for some degree of cleaning of noisy inputs. The filtertime represents the time a step in the input takes to changethe displayed value from 10 to 90% of the step.

Set value required, between 0 and 60 in 1 secondincrements.

Mains FilterSet the frequency of the mains supply used (50 or 60Hz).


bSPd

UPdN

NONE

SEtUPINPUt

FdLP 10.0

PrGFLt0

FILtEr- -Hrt

14


3.4 Set Up Display Page

Information.• Set up engineering ranges and units.• Programmable increments on deviation bargraph.• Adjust display brightness.

Page header – Display Page.

Display Full ScaleSet the display value which represents the maximumpressure input signal, between –9999 and +9999.

Example – For an input range of 4 to 20mA representing apressure range of 0.0 to 20.0 psi,, set 200. The decimalpoint position is set at the next parameter.

Decimal Point PositionSet the required number of decimal places for both thedisplay full scale and display zero values. In the exampleshown above, set the decimal point position to showincrements of 0.1 psi, i.e. 200.0.

Display ZeroSet the display value which represents the minimumpressure input signal, between –9999 and +9999.In the example shown above, set 0.0. The decimal pointposition is set automatically.

Increment Per Bar (Bargraph)This frame sets the deviation from the deviation alarm tripvalue that each bar of the Deviation Bargraph represents.Set the value required, in engineering units.

The decimal point position is set automatically

Brightness AdjustmentSelect the required display brightness between 4 and 7.


brIGHt 7

dISPLYPAGE

dIS–HI1000

dEC–Pt1000

dIS–LO0

INCMNt 1

15


3.5 Retransmission Output Page

Information.• Retransmission types – allows retransmission of any two signals, i.e. raw product

pressure, pasteurised product pressure, pressure difference.• Adjustable pressure difference output range.• 4 to 20mA outputs.

Page header – Retransmission Output Page.

Retransmission TypesSelect the retransmission signals required.

Pressure Difference Output High ValueSet the level of pressure difference at which 20mA outputis required (see Note).

Set the value in engineering units between –9999 and9999 (the decimal point position is set automatically).

Pressure Difference Output Low ValueSet the level of pressure difference at which 4mA output isrequired (see Note).

Set the value in engineering units between –9999 and9999 (the decimal point position is set automatically).

Note. The pressure difference is calculated as:pasteurized product pressure – raw product pressure.

Therefore, a positive value = pasteurized product pressure> raw product pressure.

A negative value = raw product pressure > pasteurizedproduct pressure.


r–d

rEtrANOUtPUt

diFFHI ––––

diFFLO

tYPE

d–Pr–P

––––

r–P

r–dd– P

epyT P/Odetalosi-noN P/OdetalosI

91egapees)ON(degnahcretnitonstuptuO

d–r erusserPtcudorPwaR erusserPdetaluclaC ecnereffiD

P–d erusserPdetaluclaC ecnereffiDtcudorPdeziruetsaP

erusserP

P–r erusserPtcudorPwaR tcudorPdeziruetsaP erusserP

91egapees)SEY(degnahcretnistuptuO

d–r erusserPdetaluclaC ecnereffiD erusserPtcudorPwaR

P–d tcudorPdeziruetsaP erusserPerusserPdetaluclaC

ecnereffiD

P–r tcudorPdeziruetsaP erusserP erusserPtcudorPwaR

16


3.6 Scale Adjustment Page

Information.• Scale Adjustment Reset – removes any previously programmed offset or scale

adjustment settings.• System offset errors – can be removed using Offset Adjustment.• System scale errors – can be removed using Span Adjustment.• Offset/Span Adjustment – can be used to perform spot calibration.

Switch off the power supply. Connect accurate signal sources, suitable for simulation over theentire input ranges, in place of the raw product process connections (terminals 13 and 14) andpasteurized product process connections (terminals 16 and 17).

As a general rule, spot calibration values should be:< 50% of range span value when using Offset Adjustment parameters.> 50% of range span value when using Span Adjustment parameters.

Page header – Scale Adjustment

Raw Input Scale Adjustment ResetSet YES and press to reset the process variable offsetand span values to their nominal values. dONE is displayedto indicate that these parameters have been reset.

Raw Input Offset AdjustmentApply the correct input for the spot calibration required.

Note. The displayed units are engineering units.Set the value required. The decimal point position is setautomatically.

Example – If the display range is 0.0 to 20.0 and a spotcalibration is required at 5.0 and 15.0, inject a signalequivalent to 5.0 and set the display to 5.0.

Raw Input Span AdjustmentProceed as for Raw Input Offset Adjustment and apply thecorrect input for the spot calibration required. Engineeringunits are displayed.

Set the value required. The decimal point position is setautomatically.

For the Example above inject a signal equivalent to 15.0and set the display to 15.0.

Continued on next page.

SCALE

r–rSt

AdJUSt

no

––––r–OFS

––––r–SPN

17


…3.6 Scale Adjustment Page

Pasteurized Input Scale Adjustment ResetSelect YES and press to reset the process variableoffset and span values to their nominal values. dONE isdisplayed to indicate that these parameters have beenreset.

Pasteurized Input Offset AdjustmentApply the correct input for the spot calibration required.

Note. The displayed units are engineering units.Set the value required. The decimal point position is setautomatically.

Example – If the display range is 0.0 to 20.0 and a spotcalibration is required at 5.0 and 15.0 inject a signalequivalent to 5.0 and set the display to 5.0.

Pasteurized Input Span AdjustmentProceed as for Raw Input Offset Adjustment and apply thecorrect input for the spot calibration required. Engineeringunits are displayed.

Set the value required. The decimal point position is setautomatically.

For the Example above inject a signal equivalent to 15.0and set the display to 15.0.


P–rStno

––––P–OFS

––––P–SPN

from previous page

18


3.7 Access Page

Information.• Alarm Password – protects the alarm settings.• Configuration Password – protects the controller configuration setup.

Page Header – Access Page.

Configuration PasswordThe configuration password enables access to allprogramming pages (Security Level 2).

Note. The password has no effect if the security link is inthe 'secure' position – see Section 2.4

Set the required password, between 0 and 1999.

Alarm PasswordThe alarm password enables access to the Alarm Set Uppage in addition to the Operating Page (Security Level 1).

Note. The password has no effect if the security link is inthe 'secure' position – see Section 2.4

Set the required password, between 0 and 1999.


ACCESS

C–PASS0

A–PASS0

PAGE

19

3.8 Commissioning

3 CONFIGURATION LEVEL

Page header – Commissioning

Isolated Retransmission OutputAllows the isolated and non-isolated retransmissionoutputs to be inter-changed.

NO – Outputs not interchanged (see table on page 15).

YES – Outputs interchanged (see table on page 15– isolated and non-isolated output sorces arereversed).


ISO_rt

YESNO

CO__I-SSION

20

4 INSTALLATION

4.1 Checking the Code Number – Fig. 4.1

COMMANDER 320 Booster Pump Controller C320/

None 0

115V AC *230V AC24V AC

123

0Standard

Configured to Factory StandardsConfigured to Customers DetailsAgreed Special Feature

STDCUSSPXX

XXXXXX0X

OptionBoard

PowerSupply

Build

ConfigurationSpecial Features

Fig. 4.1 Location of Code Number Label

* 115V AC versions are fitted with 0.5in NPT gland entry fixings – see section 4.7.2

Table 4.1 Identification of Instrument Code Number

Code Number Label – see Table 4.1

C320/0 X X X X X X X

21

4 INSTALLATION…

EC Directive 89/336/EEC

In order to meet the requirements of theEC Directive 89/336/EEC for EMCregulations, this product must not beused in a non-industrial environment.

4.2 Siting – Figs. 4.2 and 4.3

SensorKeep toMinimum

A – Close to Sensor

B – At Eye-level Location

C – Avoid Vibration

Fig. 4.2 General Requirements

55°CMax.

0°CMin.

0 to 90% RH

+

Caution. Select a location away fromstrong electrical and magnetic fields.If these cannot be avoided,particularly in applications where‘walkie talkies’ are used, connectusing screened cables within earthedmetal conduit.

A – Within Temperature Limits

B – Within Humidity Limits

C – Use Screened Cables

Fig. 4.3 Evironmental Requirements

22

…4 INSTALLATION

4.3 Mounting – Figs. 4.4 and 4.5The instrument is designed for wall-/pipe-mounting – see Fig. 4.5. Overall dimensions areshown in Fig. 4.4.

2.68 (68)

8.43(214)

9.13(232)

Fix

ing

Cen

tres

6.3 (160)

9.84(250)

2.72 (69)

Fixing Centres

Allowance forCable Bends7.9 (200)

1.65(42)

23/8 (61) O.D. vertical or horizontal post

Fixing Holes(x3) 0.25 (6.5) Diaa

Fig. 4.5 Wall-/Pipe-mounting Details

Fig. 4.4 Overall Dimensions

Position ‘U’ bolts on pipe

Position plates over ‘U’ bolts

Secure transmitter to mounting plate

Secure plates

Mark fixingcentres

(see Fig. 4.4)

Drill suitableholes

Fix instrument towall using

suitable fixing

(Pipe Mounting Kit –part no. 4600/0138)

1

2

3

1

2

3

4

23

Warning. Before making any connections, ensure that the power supply, any high voltage-operated control circuits and high common mode voltages are switched off.

Note.• Always route signal leads and power cables separately, preferably in earthed metal

conduit.• It is strongly recommended that screened cable is used for signal inputs and relay

connections. Connect the screen to the ground stud.

Information. Use cable appropriate for the load currents. The terminals accept cables up12AWG (2.5mm2).

4.4 Access to Terminals – Fig. 4.6For access to terminals – refer to Fig. 4.6, steps 1 to 3.

4 INSTALLATION…

Slacken captive screws andremove protection cover

Remove frontpanel screws

Remove frontpanel

Remove capand screw

4

6

slidedown

1

Pull outslightly…

…andslide off

2

2

5

3

Fig. 4.6 Access to Terminals and Processor Board

24

…4 INSTALLATION…

4.5 Setting the Input Selector Links – Fig. 4.7Remove the instrument front panel – see Fig. 4.6, steps 1 to 6.

The positions of the input links is shown in Fig. 4.7 detail A.

4.6 Setting the Isolated Output Link – Fig. 4.7The positions of the isolated output links is shown in Fig. 4.7 detail B.

PL2Pasteurized

pressure input

PL1Raw pressure

input

PL

2

PL

11 6

12 7

1 4

8 5

1

2

Identify Link PL7

Set the links for the output

PL71

B – Isolated Output Links

A – Input Links

Note. The links are factory set and should not be moved from these positions.

Fig. 4.7 Setting the Input and Output Links

25

4.7 Cable Glands and ConduitFixings

4.7.1 Cable Glands (IEC – 20mm) –Fig. 4.8

4 INSTALLATION…

'O'-Ring

Fig. 4.8 Cable Gland (Supplied as Standard)

Ferrule

Outer Nut

Seal(Presentin O.Z.GedneyFittings)

AlternativeFace Seal

FaceSeal

Hub

Fig. 4.9 Conduit Adaptors

4.7.2 Conduit Adaptors (N.American – 0.5in) – Fig. 4.9

Warning.• Rigid conduit must NOT be fitted to the

controller.• Controller adaptors must incorporate

a face seal.• Torque settings for the hubs and outer

nuts on the specified adaptors is20ft. lbs minimum, 25ft. lbs. maximum.

Information.• Suitable adaptors for controller

(mandatory for FM installations):APPLETONST-50 PLUS STG-50 or STB-50PLUS STG-50.Reusable ONLY with replacementferrule STF-50.O.Z. GEDNEY4Q-50, 4Q50T or 4Q-50TG.

26

…4 INSTALLATION

Fittingsvaryslightlyfordifferentmakes

Outer Nut

AlternativeFace Seal

FaceSeal

Hub

Illustrationtypical forO.Z.Gedney

Fig. 4.10 Cable Glands

4.7.3 Cable Glands (N. American –0.5in) – Fig. 4.10

Warning.• Controller glands must be fitted with a

face seal.• Torque settings (hubs only) – 20ft. lbs

minimum, 25ft. lbs. maximum.• Outer nuts – hand tight plus a half turn

only.

Information.• Suitable Cable Glands: (mandatory for

FM installations):O.Z. GEDNEYSR-50-375 or SR-504APPLETONCG 3150 or CG-3150S (and STG-50 sealing ring).THOMAS & BETTS2521.

• When fitting cable glands to thecontroller, start with an outer glandand also temporarily fit a gland at theopposite end, to aid location of thetransmitter gland plate. Fit and tightenglands consecutively from initialgland.

27

4 INSTALLATION…

Fig. 4.11 Terminal Block Identification

3 4 5 6 7 8 9

18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

10 11 12 13 14 15

1 2

16 17

PowerSupply

Relay 1

Relay 2

Relay 3

Non-isolatedRetransmission Output

Raw Pressure Input

Pasteurized Pressure Input

Logic InputIsolatedRetransmission

Output

SecurityOverride

Input

4.8 Connections Summary – Fig. 4.11

Information.Input impedance: Current 10Ω.

28


Table 4.2 Electrical Connections

Terminal Number

12

3 N/O4 C5 N/C

6 N/O7 C8 N/C

9 N/O10 C11 N/C

121314

151617

1819202122

23 +24 –

25 +26 –

272829

303132

2-wire TXInput 1+Input 1–

Input 2+Input 2–

Non-isolated 4 - 20mA Retransmission Output – see Fig 4.14

Raw pressure Input – see Figs. 4.12 and 4.13

Pasteurized pressure Input – see Figs. 4.12 and 4.13

Relay 1 Output Booster pump or divert valve– see Fig. 4.14

Relay 2 Output Booster pump or divert valve– see Fig. 4.14

Relay 3 Output– see Fig. 4.16

AC SupplyLN

– see Fig. 4.17

Alarm Annunciator

Logic Input 1Security Override InputCommon for Logic Inputand Security Override Input

Isolated 4 - 20mA Retransmission Output – see Fig 4.14

24V, 115V or 230V a.c.

see Fig. 4.15

see Fig. 2.2

29

$£@&^%Pasteurized pressure input

SleevedLink

–+

Raw pressure input

Fig. 4.12 Current Input Connections

Fig. 4.13 2-wire Transmitter Connections

$£@&^Pasteurized pressure input

Raw pressure input@

TX+ –

4 INSTALLATION…

Fig. 4.14 Retransmission Output Connections

Information.The isolated and non-isolated outputsmay be interchanged – see section 3.7

Manual override

Normal5V

0VLogic switching

Normal

Manual Override

Common

Logic Input 130

32

323130

Note. The manual overridede-energises Relay 1 allowing theoperator to turn the booster pump offmanually.

Fig. 4.15 Logic Input Functions

4.9 Input Connections4.9.1 Current Input – Fig. 4.12

4.9.2 2-wire Transmitter – Fig. 4.13

4.10 Output Connections – Fig. 4.14

4.11 Logic Input Connection – Fig.4.15

Non-isolated 4 to 20mARetransmission O/P ofRaw Input

Isolated 4 to 20mARetransmission O/P ofPasteurized Input

23

25

24

26

–+

30


Fig. 4.16 Relay Connections

437609

58!Relay 3

Relay 2Relay 1

Normally ClosedCommon

Normally Open

DeviationAlarm (A1)

Start-upAlarm (A2)

LogicInput 1

Relaystate

Relay 1for booster pumpor divert valvecontrol

Relay 2for booster pumpor divert valvecontrol

Relay 3for warning lightor horn

ActiveXXInactive

XActiveXInactive

XXManual overrideNormal

De-energisedDe-energisedDe-energisedEnergised

ActiveInactive

XX

XX

De-energisedEnergised

Active & UnackActive & ackInactive

XXX

XXX

EnergisedDe-energisedDe-energised

* X = Don't careTable 4.3 Relay and Alarm States

4.12 Relay Connections – Fig. 4.16See Table 4.3 for relay and alarm states.

31

4 INSTALLATION

115

Selector not fitted (24V AC)

Code LabelDigit 7

32

1

C32 x x xx x x x x x

115

230

Remove plug tomake connection

A – Selecting the Supply Voltage

B – Power Supply Connections

Line

Neutral

Ground

230V

115V

Fuse

Information.Fuse Rating – 5A Type T

Fig. 4.17 Power Supply Selection and AC Connections

4.13 Power Supply Selection and AC Connections – Fig. 4.17

32

SPECIFICATION

Summary

C320 Booster Pump Controller

Two analog inputs

Three relays

Two analog outputs

IP66 (NEMA 4X) housing

OperationDisplay

High-intensity, 7-segment, 0.56 in. (14mm),2 x 6 red LED display

11-element l.e.d. deviation bargraph

Configuration

User-defined via front panel

Analog InputsNumber

Two 4 to 20mA signals

Input sampling rate

160ms per channel

Input impedance

10Ω

Broken sensor protection

Programmable Up/Downscale or None

Input noise rejection

Common mode rejection >140dB at 50/60Hz with 500Ωimbalance

Series mode rejection >60dB at 50/60Hz

Accuracy

Measurement error

PRODUCTS & CUSTOMER SUPPORT

ProductsAutomation Systems

• for the following industries:– Chemical & Pharmaceutical– Food & Beverage– Manufacturing– Metals and Minerals– Oil, Gas & Petrochemical– Pulp and Paper

Drives and Motors• AC and DC Drives, AC and DC Machines, AC

motors to 1kV• Drive systems• Force Measurement• Servo Drives

Controllers & Recorders• Single and Multi-loop Controllers• Circular Chart , Strip Chart and Paperless

Recorders• Paperless Recorders• Process Indicators

Flexible Automation• Industrial Robots and Robot Systems

Flow Measurement• Electromagnetic Flowmeters• Mass Flow Meters• Turbine Flowmeters• Flow Elements

Marine Systems & Turbochargers• Electrical Systems• Marine Equipment• Offshore Retrofit and Referbishment

Process Analytics• Process Gas Analysis• Systems Integration

Transmitters• Pressure• Temperature• Level• Interface Modules

Valves, Actuators and Positioners• Control Valves• Actuators• Positioners

Water, Gas & Industrial AnalyticsInstrumentation

• pH, conductivity, and dissolved oxygentransmitters and sensors

• ammonia, nitrate, phosphate, silica, sodium,chloride, fluoride, dissolved oxygen andhydrazine analyzers.

• Zirconia oxygen analyzers, katharometers,hydrogen purity and purge-gas monitors,thermal conductivity.

Customer SupportWe provide a comprehensive after sales service via aWorldwide Service Organization. Contact one of thefollowing offices for details on your nearest Service andRepair Centre.

United KingdomABB LimitedTel: +44 (0)1480 475 321Fax: +44 (0)1480 217 948

United States of AmericaABB IncTel: +1 215-674-6000Fax: +1 215-674-7183

Client Warranty

Prior to installation, the equipment referred to inthis manual must be stored in a clean, dryenvironment, in accordance with the Company'spublished specification.Periodic checks must be made on theequipment's condition. In the event of a failureunder warranty, the following documentation mustbe provided as substantiation:

1. A listing evidencing process operation and alarmlogs at time of failure.

2. Copies of all storage, installation, operating andmaintenance records relating to the allegedfaulty unit.

IM/C

320

Issu

e 5

The Company’s policy is one of continuous productimprovement and the right is reserved to modify the

information contained herein without notice.

Printed in UK (06.04)

© ABB 2004

ABB Inc.125 E. County Line RoadWarminster, PA 18974USA

Tel: +1 215 674 6000Fax: +1 215-674 7183

ABB LimitedHoward Road, St. NeotsCambridgeshire, PE19 8EUUK

Tel: +44 (0)1480 475321Fax: +44 (0)1480 217948

ABB has Sales & Customer Support expertisein over 100 countries worldwide

www.abb.com

GETTING STARTED1 DISPLAYS AND CONTROLS2 OPERATING LEVEL3 CONFIGURATION LEVEL4 INSTALLATIONSPECIFICATION

user guide controlit - abb• three relay outputs: two for booster pump or divert valve control, one...

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